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Annals of Mathematics and Physics

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    Executive Editors

    Shuanhong Wang
    Deputy Director
    School of Mathematics
    Southeast University
    China
    shuanhwang@seu.edu.cn
    AMP

    PERSONAL INFORMATION

    _ Born: April 11th, 1963  in  Shanxi, China

    _ Nationality: China

    _ Gender: Male

    _ Language: Chinese, English

    --EDUCATION

    _ September, 1997 - August, 2000: Ph.D at Mathematical Institute, Fudan University, Shanghai China

    _ September, 1991 - August, 1994: MA.Sc. at Mathematical Institute, Fudan University, Shanghai China

    _ September, 1982 - August, 1986: B.A. at School of Mathematics, Shanxi Normal  University, China

    --EMPLOYMENT

    _ September, 2003 - present: Professor at Shing-Tung Yau Center, School of Mathematics, Southeast University, China

    _ July, 2002 - August, 2003: Postdoctoral Fellow at School of Physics and Mathematics, Jeonbuk National University, South Korea

    _ March, 2004 - April, 2005: Postdoctoral Fellow at  Department of Mathematics, University of Leuven, Celestijnenlaan 200B, Belgium

    _ July, 1986 – Sept.1994 : Teaching at Hexi University, Gansu; Henan Normal University, Henan.

    --RESEARCH ACTIVITY

    1.Jun. 6 2010– July 7 2010: Visiting scholar at Department of Mathematics, Indiana University, Bloomington, USA. Advisor: Prof. V.D.Turaev.

    2. Aug. 2009- Sept. 2009, Visiting scholar at Facultad de Matematica, Astronomıay Fısica, Universidad Nacional de Cordoba. CIEM – CONICET. Medina Allende s/n (5000) Ciudad Universitaria, Cordoba, Argentina,

    Advisor: Prof. N. Andruskiewitsch

    3. Feb. 2009- May 2009:  Postdoctoral Fellow at  Department of Mathematics, University of Leuven, Celestijnenlaan 200B, Belgium A. Advisor: Prof. A.Van Daele

    4. Jun. 2008- Aug. 2008, Visiting scholar  at Department of Mathematics, The University of Hong Kong, Pokfulam Road, Hong Kong

    5. Feb. 2 2008–Feb.4 2008: Visiting scholar at Department of Mathematics, Indiana University, Bloomington, USA. Advisor: Prof. V.D.Turaev.

    6. 2007/1-2007/2, Visiting scholar at Department of Mathematics,Victoria University of Wellington, New Zealand. Advisor: Prof. Y. H. Zhang.

    7. Jun. 2006- Sept. 2006: Postdoctoral Fellow at  Department of Mathematics, University of Leuven, Celestijnenlaan 200B, Belgium A. Advisor: Prof. A.Van Daele

    8. Jun. 2002 – May 2002, Postdoctoral Fellow at  Faculty of Engineering Sciences, Vrije Universiteit Brussel, VUB, B-1050, Brussels, Belgium,

    Advisor: Prof. S. Caenepeel  

    9. Sept.1996—Jun.1997,  Visiting scholar at Mathematical Institute, Fudan University, Shanghai China

    -- TEACHING EXPERIENCE

    _ Graduate Courses:  Hopf algebras; Matrix theory; Basic algebras;

       Rings and corings; Algebraic topology;

    _ Undergraduate Courses: Modern algebras; Advanced linear algebras; Advanced Mathematics; Analytic Geometry; Differential Geometry

    URL:     https://math.seu.edu.cn/wsh/list.htm

    Grants:  (parts of them)

    1. General program of National Natural Science Foundation of China (No.11871144),Bigalois theory and Yetter-Drinfeld categories for  multiplier cogroupoids and algebraic quantum groupoids, 2019/01-2022/12.
    2. General program of National Natural Science Foundation of China (No.11571173),Galois theory and homological theory for weak multiplier (Hom-)Hopf algebras. 2016/01-2019/12.
    3. General program of National Natural Science Foundation of China(No.11371088), Pontryagin duality,Galois objects and tensor categories for bonological quantum hypergroupoids.2014/01-2017/12.
    4. General program of National Natural Science Foundation of Jiangsu Province (No. BK2012736),Multiplier Hopf algebras and knot quantum invariants, 2012/07-2015/06.
    5. General program of National Natural Science Foundation of China(No.10871042), Galois group corings, K0-theory and knot quantum invariants,2009/01-2011/12.
    6. The Distingguished youth fund of Henan Province,Braided tensor categories and Yang-Baxter equations, 2001-2003.
    7. Youth Fund Project of National Natural Science Foundation of China (No.19601015),Hopf algebra theory and Yang-Baxter equations, 1997/01-1999/12.

    List of Publications:  (parts of them)
    1.    Gu Yue; Wang, Shuanhong; Ma, Tianshui, Rota–Baxter (Co)algebra Equation Systems and Rota–Baxter Hopf Algebras, Mathematics 2022, Volume 10, Issue 3, 426
    2.    Ma, T.S.; Li, J.; Chen, L. Y.; Wang, Shuanhong, Rota-Baxter operators on Turaev's Hopf group (co)algebras (I): Basic definitions and related algebraic structures. J. Geom. Phys.  (2022) Volume 175, 104469
    3.     Liu, Linlin; Wang, Shuanhong, Symmetries and the u  -condition in weak monoidal Hom-Yetter-Drinfeld categories. J. Algebra Appl. 20 (2021), no. 10, Paper No. 2150194, 24 pp.
    4.     Zhang, Tao; Gu, Yue; Wang, Shuanhong, Hopf quasimodules and Yetter-Drinfeld modules over Hopf quasigroups. Algebra Colloq. 28 (2021), no. 2, 213–242.
    5.    Gu, Yue; Wang, Shuanhong, Double centralizer properties related to (co)triangular Hopf coquasigroups. Comm. Algebra 49 (2021), no. 2, 662–686.
    6.    Liu, Linlin; Wang, Shuanhong, Rota-Baxter H-operators and pre-Lie H-pseudoalgebras over a cocommutative Hopf algebra. Linear Multilinear Algebra 68 (2020), no. 11, 2170–2184
    7.    Daele, A.V.; Wang, Shuanhong,  Weak Multiplier Hopf Algebras II: Source and Target Algebras. Symmetry 2020, 12, 1975.
    8.     Yan, Dongdong; Wang, Shuanhong, Drinfel'd construction for Hom-Hopf T-coalgebras. Internat. J. Math. 31 (2020), no. 8, 2050058, 31 pp.
    9.    Liu, Guohua; Wang, Wei; Wang, Shuanhong; Zhang, Xiaohui A braided T  -category over weak monoidal Hom-Hopf algebras. J. Algebra Appl. 19 (2020), no. 8, 2050159, 28 pp.
    10.     Shi, Guodong; Wang, Shuanhong, Schur–Weyl quasi-duality and (co)triangular Hopf quasigroups. J. Math. Phys. 61 (2020), no. 5, 051701, 23 pp.
    11.     Gu, Yue; Wang, Shuanhong, Hopf quasicomodules and Yetter-Drinfel'd quasicomodules. Comm. Algebra 48 (2020), no. 1, 351–379.
    12.     Zhang, Tao; Wang, Shuanhong; Wang, Dingguo A new approach to braided   monoidal categories. J. Math. Phys. 60 (2019), no. 1, 013510, 22 pp.
    13. Wang, Wei; Zhou, Nan; Wang, Shuanhong, Semidirect products of weak multiplier Hopf algebras: smash products and smash coproducts. Comm. Algebra 46 (2018), no. 8, 3241–3261
    14. Lu, Daowei; Wang, Shuanhong, Yetter-Drinfeld-Long bimodules are modules. Czechoslovak Math. J. 67(142) (2017), no. 2, 379–387.
    15. Zhao, Xiaofan; Liu, Guohua; Wang, Shuanhong, Pseudotriangular weak Hopf algebras. J. Algebra Appl. 16 (2017), no. 7, 1750137, 18 pp.
    16. Zhou, Nan; Wang, Shuanhong, A duality theorem for weak multiplier Hopf algebra actions. Internat. J. Math. 28 (2017), no. 5, 1750032, 34 pp.
    17. You, Miman; Wang, Shuanhong, A generalized double crossproduct for monoidal Hom-Hopf algebras and the Drinfeld double. Colloq. Math. 146 (2017), no. 2, 213–238.
    18. You, Miman; Wang, Shuanhong Constructing braided Hopf algebras in monoidal Hom-category. Taiwanese J. Math. 20 (2016), no. 6, 1203–1230.
    19. Guo, Shuangjian; Wang, Shuanhong, Quasitriangular Turaev group coalgebras and Radford's byproduct, Algebra Colloq. 23 (2016), no. 3, 427–442.
    20. Lu, Daowei; Wang, Shuanhong, The Drinfel'd double versus the Heisenberg double for Hom-Hopf algebras. J. Algebra Appl. 15 (2016), no. 4, 1650059, 24 pp.
    21. You, Miman; Zhou, Nan; Wang, Shuanhong, Hom-Hopf group coalgebras and braided T  -categories obtained from Hom-Hopf algebras. J. Math. Phys. 56 (2015), no. 11, 112302, 16 pp.
    22. Van Daele, Alfons; Wang, Shuanhong, Weak multiplier Hopf algebras I. The main theory. J. Reine Angew. Math. 705 (2015), 155–209.
    23. Zhang, Xiaohui; Zhao, Xiaofan; Wang, Shuanhong, Sovereign and ribbon weak Hopf algebras. Kodai Math. J. 38 (2015), no. 2, 451–469.
    24. Zhao, Xiaofan; Liu, Guohua; Wang, Shuanhong, Symmetric pairs in Yetter-Drinfeld categories over weak Hopf algebras. Comm. Algebra 43 (2015), no. 10, 4502–4514.
    25. Zhang, Xiaohui; Wang, Shuanhong, Weak Hom-Hopf algebras and their (co)representations. J. Geom. Phys. 94 (2015), 50–71.
    26. Guo, Shuang-jian; Wang, Shuan-hong, Morita contexts and partial group Galois extensions for Hopf group coalgebras. Comm. Algebra 43 (2015), no. 3, 1025–1049.
    27. Zhang, Xiaohui; Wang, Shuanhong, New Turaev braided group categories and weak (co)quasi-Turaev group coalgebras. J. Math. Phys. 55 (2014), no. 11, 111702, 27 pp.
    28. You, Miman; Wang, Shuanhong, Constructing new braided T-categories over monoidal Hom-Hopf algebras. J. Math. Phys. 55 (2014), no. 11, 111701, 16 pp.
    29. Zhu, Haixing; Wang, Shuanhong; Chen, Juzhen Bicovariant differential calculi on a weak Hopf algebra. Taiwanese J. Math. 18 (2014), no. 6, 1679–1712.
    30. Chen, Quanguo; Wang, Shuanhong, Radford's formula for generalized weak biFrobenius algebras. Rocky Mountain J. Math. 44 (2014), no. 2, 419–433.
    31. Wang, Shengxiang; Wang, Shuanhong, Hom-Lie algebras in Yetter-Drinfeld categories. Comm. Algebra 42 (2014), no. 10, 4526–4547.
    32. Guo, Shuang Jian; Wang, Shuan Hong, Crossed products of weak Hopf group coalgebras. (Chinese) Acta Math. Sci. Ser. A Chin. Ed. 34 (2014), no. 2, 327–337.
    33. Wang, Shengxiang; Wang, Shuanhong, Drinfeld double for braided infinitesimal Hopf algebras. Comm. Algebra 42 (2014), no. 5, 2195–2212.
    34.  Fang, Xiaoli; Wang, Shuanhong, New Turaev braided group categories and group corings based on quasi-Hopf group coalgebras. Comm. Algebra 41 (2013), no. 11, 4195–4226.
    35. Guo, Shuang-Jian; Wang, Shuan-Hong, Crossed products of Hopf group-coalgebras. Kodai Math. J. 36 (2013), no. 2, 325–342.
    36. Dong, Lihong; Guo, Shuangjian; Wang, Shuanhong, A class of quasitriangular Hopf group coalgebras and Drinfel'd double. Algebra Colloq. 20 (2013), no. 3, 527–540.
    37. Liu, Ling; Shen, Bing-liang; Wang, Shuan-hong, On weak crossed products of weak Hopf algebras. Algebr. Represent. Theory 16 (2013), no. 3, 633–657.
    38.  Chen, Quanguo; Wang, Shuanhong, Connes' pairings for a new K  -theory over weak Hopf algebras. Comm. Algebra 41 (2013), no. 4, 1316–1349.
    39.  Dong, Lihong; Wang, Shuanhong, Constructing new quasitriangular Turaev group coalgebras. Comm. Algebra 41 (2013), no. 4, 1217–1246.
    40. Delvaux, L.; Van Daele, A.; Wang, S. H. Bicrossproducts of algebraic quantum groups. Internat. J. Math. 24 (2013), no. 1, 1250131, 48 pp.
    41. Wang, Shuanhong, New Turaev braided group categories and group Schur-Weyl duality. Appl. Categ. Structures 21 (2013), no. 2, 141–166.
    42. Wang, Shuanhong, More examples of algebraic quantum hypergroups. Algebr. Represent. Theory 16 (2013), no. 1, 205–228.
    43. Dong, Jingcheng; Wang, Shuanhong, On semisimple Hopf algebras of dimension 2q 3   . J. Algebra 375 (2013), 97–108.
    44. Quan-guo, Chen; Shuan-hong, Wang Quantum integrals and the affineness criterion for quantum Yetter-Drinfeld π  -modules. Filomat 26 (2012), no. 1, 101–118.
    45.  Van Daele, Alfons; Wang, Shuanhong ,Weak multiplier Hopf algebras.
    Preliminaries, motivationand basic examples, in Operator algebras and
    quantum groups, Vol. 98(5) (Banach Center Publication, Warsaw, 2012),
    367-415.
    46. Wang, Shuan Hong, Kaplansky's ten conjectures. (Chinese) Adv. Math. (China) 41 (2012), no. 3, 257–265.
    47.  Bai, Li; Wang, Shuanhong, Twisted Drinfeld doubles and representations of a Hopf algebra. J. Algebra Appl. 11 (2012), no. 6, 1250118, 27 pp.
    48.  Guo, Shuang-Jian; Wang, Shuan-Hong, Separable functors for the category of partial entwined modules. J. Algebra Appl. 11 (2012), no. 5, 1250101, 15 pp.
    49. Delvaux, L.; Van Daele, A.; Wang, Shuanhong, A note on the antipode for algebraic quantum groups. Canad. Math. Bull. 55 (2012), no. 2, 260–270.
    50. Liu, Guohua; Wang, Shuanhong, Graded Morita theory for group coring and graded Morita-Takeuchi theory. Taiwanese J. Math. 16 (2012), no. 3, 1041–1056.
    51. Yang, Tao; Wang, Shuanhong Constructing new braided T  -categories over regular multiplier Hopf algebras. Comm. Algebra 39 (2011), no. 9, 3073–3089.
    52. Chen, Quan-guo; Wang, Shuan-hong Separable functors for the category of Doi-Hopf π  -modules. Abh. Math. Semin. Univ. Hambg. 81 (2011), no. 2, 261–272.
    53. Yang, Tao; Wang, Shuan-hong A lot of quasitriangular group-cograded multiplier Hopf algebras. Algebr. Represent. Theory 14 (2011), no. 5, 959–976.
    54. Delvaux, L.; Van Daele, A.; Wang, S. H. Bicrossproducts of multiplier Hopf algebras. J. Algebra 343 (2011), 11–36.
    55. Wang, Shuanhong Nakayama automorphisms of generalized co-Frobenius algebras. Comm. Algebra 39 (2011), no. 7, 2449–2462.
    56. Quan-guo, Chen; Shuan-hong, Wang Integrals and a Maschke-type theorem for weak Hopf π  -coalgebras. Int. Electron. J. Algebra 10 (2011), 85–112.
    57. Wang, Shuanhong Algebraic quantum hypergroups of discrete type. Math. Scand. 108 (2011), no. 2, 198–222.
    58. Ma, Tianshui; Li, Haiying; Wang, Shuanhong Quasitriangularity of Brezeziński's crossed coproducts. J. Algebra Appl. 10 (2011), no. 2, 241–255.
    59.Ma, Tianshui; Li, Haiying; Wang, Shuanhong A class of new braided Hopf algebras. Front. Math. China 6 (2011), no. 2, 293–308.
    60. Guo, Qiao Ling; Wang, Shuan Hong Morita contexts and Galois theory for weak Hopf comodulelike algebras. Acta Math. Sin. (Engl. Ser.) 27 (2011), no. 4, 757–772.
    61. Wang, Shuanhong Hopf-type algebras. Comm. Algebra 38 (2010), no. 11, 4255–4276.
    62. Ma, Tianshui; Wang, Shuanhong A method to construct oriented quantum algebras. Comm. Algebra 38 (2010), no. 11, 4234–4254.
    63. Liu, Ling; Wang, Shuan Hong Making the category of group entwined modules into a braided monoidal category. (Chinese) Acta Math. Sci. Ser. A Chin. Ed. 30 (2010), no. 6, 1612–1620.
    64. Zhou, Xuan; Wang, Shuanhong The duality theorem for weak Hopf algebra (co) actions. Comm. Algebra 38 (2010), no. 12, 4613–4632.
    65.Ma, Tianshui; Wang, Shuanhong; Xu, Shaoxian A method of constructing braided Hopf algebras. Filomat 24 (2010), no. 2, 53–66.
    66. Wang, Shuan-hong; Zhu, Hai-xing On braided Lie structures of algebras in the categories of weak Hopf bimodules. Algebra Colloq. 17 (2010), no. 4, 685–698.
    67. Ma, Tianshui; Wang, Shuanhong Bitwistor and quasitriangular structures of bialgebras. Comm. Algebra 38 (2010), no. 9, 3206–3242.
    68. Liu, Ling; Wang, Shuanhong Constructing new braided T  -categories over weak Hopf algebras. Appl. Categ. Structures 18 (2010), no. 4, 431–459.
    69. Wang, Shuanhong New Turaev braided group categories over entwinning structures. Comm. Algebra 38 (2010), no. 3, 1019–1049.
    70. Wang, Shuan-hong; Zhu, Hai-xing On corepresentations of multiplier Hopf algebras. Acta Math. Sin. (Engl. Ser.) 26 (2010), no. 6, 1087–1114.
    71. Ma, Tianshui; Wang, Shuanhong General double quantum groups. Comm. Algebra 38 (2010), no. 2, 645–672.
    72. Zhu, Haixing; Wang, Shuanhong A generalized Drinfeld quantum double construction based on weak Hopf algebras. Comm. Algebra 38 (2010), no. 1, 199–229.
    73. Van Daele, A.; Wang, Shuanhong Pontryagin duality for bornological quantum hypergroups. Manuscripta Math. 131 (2010), no. 1-2, 247–263.
    74.  Wang, S. H.; Van Daele, A.; Zhang, Y. H. Constructing quasitriangular multiplier Hopf algebras by twisted tensor coproducts. Comm. Algebra 37 (2009), no. 9, 3171–3199.
    75. Wang, Shuanhong Turaev group coalgebras and twisted Drinfeld double. Indiana Univ. Math. J. 58 (2009), no. 3, 1395–1417.
    76. Shen, Bing-liang; Wang, Shuan-hong Weak Hopf algebra duality in weak Yetter-Drinfeld categories and applications. Int. Electron. J. Algebra 6 (2009), 74–94.
    77. Wang, Shuan-hong; Ma, Tian-shui Singular solutions to the quantum Yang-Baxter equations. Comm. Algebra 37 (2009), no. 1, 296–316.
    78. Guo, Qiaoling; Wang, Shuanhong; Zhang, Yan Inner deformations of entwined modules and their simpleness. Arab. J. Sci. Eng. Sect. C Theme Issues 33 (2008), no. 2, 205–223.
    79. Chen, Ju-zhen; Wang, Shuan-hong Differential calculi on quantum groupoids. Comm. Algebra 36 (2008), no. 10, 3792–3819.
    80. Liu, Ling; Wang, Shuan-hong The generalized C. M. Z.-theorem and a Drinfel′d double construction for WT-coalgebras and graded quantum groupoids. Comm. Algebra 36 (2008), no. 9, 3393–3417.
    81. Shen, Bing-liang; Wang, Shuan-hong Blattner-Cohen-Montgomery's duality theorem for (weak) group smash products. Comm. Algebra 36 (2008), no. 6, 2387–2409.
    82.Van Daele, A.; Wang, Shuanhong New braided crossed categories and Drinfel′d quantum double for weak Hopf group coalgebras. Comm. Algebra 36 (2008), no. 6, 2341–2386.
    83. Shen, Bing-liang; Wang, Shuan-hong On group crossed products. Int. Electron. J. Algebra 4 (2008), 177–188.
    84. Guo, Qiao-ling; Wang, Shuan-hong Lax group corings. Int. Electron. J. Algebra 4 (2008), 83–103.
    85. Chen, Ju-zhen; Zhang, Yan; Wang, Shuan-hong Twisting theory for weak Hopf algebras. Appl. Math. J. Chinese Univ. Ser. B 23 (2008), no. 1, 91–100.
    86. Caenepeel, S.; Janssen, K.; Wang, S. H. Group corings. Appl. Categ. Structures 16 (2008), no. 1-2, 65–96.
    87. Van Daele, Alfons; Wang, Shuanhong A class of multiplier Hopf algebras. Algebr. Represent. Theory 10 (2007), no. 5, 441–461.
    88. Wang, Shuan-Hong Coquasitriangular Hopf group algebras and Drinfel′d co-doubles. Comm. Algebra 35 (2007), no. 1, 77–101.
    89. Van Daele, A.; Wang, Shuanhong On the twisting and Drinfel′d double for multiplier Hopf algebras. Comm. Algebra 34 (2006), no. 8, 2811–2842.
    90. Van Daele, A.; Wang, Shuanhong Larson-Sweedler theorem and some properties of discrete type in (G  -cograded) multiplier Hopf algebras. Comm. Algebra 34 (2006), no. 6, 2235–2249.
    91. Wang, Shuan-hong Morita contexts, π  -Galois extensions for Hopf π  -coalgebras. Comm. Algebra 34 (2006), no. 2, 521–546.
    92. Van Daele, Alfons; Wang, Shuanhong The Larson-Sweedler theorem for multiplier Hopf algebras. J. Algebra 296 (2006), no. 1, 75–95.
    93. Wang, Shuan-hong An analogue of Kegel's theorem for quasi-associative algebras. Comm. Algebra 33 (2005), no. 8, 2607–2623.
    94.Delvaux, L.; van Daele, A.; Wang, S. H. Quasitriangular (G  -cograded) multiplier Hopf algebras. J. Algebra 289 (2005), no. 2, 484–514.
    95. Nam, Ki-Bong; Wang, S. H.; Kim, Y. G. Explicit universal proof of P≠NP . Advances in algebra towards millennium problems, 1–58, SAS Int. Publ., Delhi, 2005.
    96. Kim, Y. G.; Wang, Shuan-Hong; Koh, SeokHyun; Kim, Cheol A remark on Lie algebra and its module theory. J. Appl. Algebra Discrete Struct. 3 (2005), no. 1, 55–64. 17B10
    97. Caenepeel, Stefaan; Vercruysse, Joost; Wang, Shuanhong Rationality properties for Morita contexts associated to corings. Hopf algebras in noncommutative geometry and physics, 113–136, Lecture Notes in Pure and Appl. Math., 239, Dekker, New York, 2005.
    98. Zhao, Wenzheng; Jiao, Zhengming; Wang, Shuanhong On the quasitriangular structure of smash products Hopf algebra. Southeast Asian Bull. Math. 28 (2004), no. 5, 955–970.
    99. Wang, Shuan-hong A Maschke type theorem for Hopf π-comodules. Tsukuba J. Math. 28 (2004), no. 2, 377–388.
    100. Wang, Shuan-hong; Kim, Y. G. Quasitriangular structures for a class of Hopf algebras of dimension p6 . Comm. Algebra 32 (2004), no. 4, 1401–1423.
    101. Wang, Shuan-hong Cibils-Rosso's theorem for quantum groupoids. Comm. Algebra 32 (2004), no. 9, 3703–3723.
    102. Wang, Shuan-hong Group entwining structures and group coalgebra Galois extensions. Comm. Algebra 32 (2004), no. 9, 3437–3457.
    103. Wang, Shuan-hong Group twisted smash products and Doi-Hopf modules for T-coalgebras. Comm. Algebra 32 (2004), no. 9, 3417–3436.
    104. Caenepeel, S.; Vercruysse, J.; Wang, Shuanhong Morita theory for corings and cleft entwining structures. J. Algebra 276 (2004), no. 1, 210–235.
    105. Nam, Ki-Bong; Wang, S. H.; Kim, Y. G. Linear algebra, Lie algebra and their applications to P versus NP . J. Appl. Algebra Discrete Struct. 2 (2004), no. 1, 1–26.
    106. Wang, Shuan-hong A generalized double crossproduct and Drinfeld double. Southeast Asian Bull. Math. 26 (2002), no. 1, 159–180.
    107. Wang, Shuan-hong Braided monoidal categories associated to Yetter-Drinfeld categories. Comm. Algebra 30 (2002), no. 11, 5111–5124.
    108. Wang, Shuan-hong A construction of braided Hopf algebras. Tsukuba J. Math. 26 (2002), no. 2, 269–289.
    109. Wang, Shuanhong; Chen, Huixiang Hopf-Galois coextensions and braided Lie coalgebras. Progr. Natur. Sci. (English Ed.) 12 (2002), no. 4, 264–270.
    110.  Chen, Hui-Xiang; Wang, Shuan-Hong Hopf modules, Miyashita-Ulbrich coactions, and monoidal center constructions. Comm. Algebra 30 (2002), no. 6, 2853–2881.
    111. Wang, Shuanhong; Kan, Haibin; Chen, Huixiang Generalized H  -Lie structure of associative algebras in a category. Algebra Colloq. 9 (2002), no. 2, 143–154.
    112. Wang, Shuan-hong On the generalized H  -Lie structure of associative algebras in Yetter-Drinfeld categories. Comm. Algebra 30 (2002), no. 1, 307–325.
    113. Wang, Shuan-hong Doi-Koppinen Hopf bimodules are modules. Comm. Algebra 29 (2001), no. 10, 4671–4682.
    114. Wang, Shuan-hong On the braided structures of bicrossproduct Hopf algebras. Tsukuba J. Math. 25 (2001), no. 1, 103–120.
    115. Wang, Shuanhong; Wang, Dingguo; Yao, Zhongping Hopf algebra structure over crossed coproducts. Southeast Asian Bull. Math. 24 (2000), no. 1, 105–113.
    116. Wang, Shuan Hong Solvable ideal properties of ρ  -Lie algebras in Yetter-Drinfel′d categories. (Chinese) Chinese Ann. Math. Ser. A 21 (2000), no. 5, 547–552.
    117.  Wang, Shuanhong Central invariants of ρ-Lie algebras in Yetter-Drinfeld categories. Sci. China Ser. A 43 (2000), no. 8, 803–809.
    118.  Zhao, Wen-zheng; Wang, Shuan-hong; Jiao, Zheng-ming On the quasitriangular structures of bicrossproduct Hopf algebras. Comm. Algebra 28 (2000), no. 10, 4839–4853.
    119.  Jiao, Zhengming; Wang, Shuanhong A class of twisted braided groups. Kodai Math. J. 23 (2000), no. 1, 88–99.
    120. Wang, Shuanhong; Wang, Dingguo Hopf algebra structure H σ-R   with two sided invertible 2-cocycle. Comment. Math. Univ. Carolin. 40 (1999), no. 4, 635–650.
    121. Wang, Shuanhong Quasitriangularity of the twisted smash coproduct Hopf algebras. Progr. Natur. Sci. (English Ed.) 9 (1999), no. 12, 894–902.
    122. Wang, Shuan Hong Braided monoidal categories of twisted smash products and the twisted smash products over braided monoidal categories. (Chinese) Acta Math. Sinica (Chin. Ser.) 42 (1999), no. 3, 385–394.
    123.  Kan, Haibin; Wang, Shuanhong A categorical interpretation of Yetter-Drinfel′d modules. Chinese Sci. Bull. 44 (1999), no. 9, 771–778.
    124.  Wang, Shuan-hong On braided Hopf algebra structures over the twisted smash products. Comm. Algebra 27 (1999), no. 11, 5561–5573.
    125. Wang, Shuan-hong; Li, Jin-qi On twisted smash products for bimodule algebras and the Drinfeld double. Comm. Algebra 26 (1998), no. 8, 2435–2444.
    126. Wang, Shuanhong; Jiao, Zhengming; Zhao, Wenzheng Hopf algebra structures on crossed products. Comm. Algebra 26 (1998), no. 4, 1293–1303.
    127. Zhao, Wenzheng; Wang, Shuanhong; Jiao, Zhengming The Hopf algebra structure on a double crossproduct. Comm. Algebra 26 (1998), no. 2, 467–476.
    128. Wang, Shuan Hong; Li, Jin Qi H  -comodule algebras, total integrals and separable extensions. (Chinese) Chinese Ann. Math. Ser. A 17 (1996), no. 5, 589–594.
    129. Wang, Shuanhong Lie bialgebra structure of multivariate linearly recursive sequences. Chinese Sci. Bull. 41 (1996), no. 4, 271–275.
    130. Wang, Shuan Hong A duality theorem of crossed coproduct for Hopf algebras. Sci. China Ser. A 38 (1995), no. 1, 1–7.

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    Editorial Board

    Jinde Cao
    Endowed Chair Professor
    School of Mathematics
    Southeast University
    China
    jdcaoseu@gmail.com
    AMP

    Jinde Cao is an Endowed Chair Professor, the Dean of School of Mathematics and the Director of the Research Center for Complex Systems and Network Sciences at Southeast University. From March 1989 to May 2000, he was with the Yunnan University. In May 2000, he joined the School of Mathematics, Southeast University, Nanjing, China. From July 2001 to June 2002, he was a Postdoctoral Research Fellow at Chinese University of Hong Kong, Hong Kong. Professor Cao was an Associate Editor of the IEEE Transactions on Neural Networks, and Neurocomputing. He is an Associate Editor of the IEEE Transactions on Cybernetics, IEEE Transactions on Cognitive and Developmental Systems, Journal of the Franklin Institute, Mathematics and Computers in Simulation, Cognitive Neurodynamics, and Neural Networks. He is a Fellow of IEEE, a Member of the Academy of Europe, and a Foreign Fellow of Pakistan Academy of Sciences. He has been named as Highly-Cited Researcher by Thomson Reuters/Clarivate Analytics.

    Research Interest: Neural networks:  Computational intelligence; Complex networks; Complex systems; Intelligent control; Multi-agent system ; Differential equations; Applied mathematics

    URL: http://www.ae-info.org/ae/User/Cao_Jinde

    No. of Publications (up-to-date): 630

    More Info.
    Dariusz Jacek Jakobczak
    Assistant Professor
    Department of Computer Science and Management
    Koszalin University of Technology
    Poland
    AMP

    Research Interest: connect mathematics with computer science and include computer vision, artificial intelligence, shape representation, curve interpolation, contour reconstruction and geometric modelling, numerical methods, probabilistic methods, game theory, operational research and discrete mathematics

    Grants: None

    Publications

    1. Jakóbczak D.: Curve Extrapolation and Data Analysis using
    the Method of Hurwitz-Radon Matrices. Folia Oeconomica Stetinensia, vol.9(17)/2010, pp. 121-138, Szczecin University 2011.

    2. Jakóbczak D.: Object Recognition via Contour Points Reconstruction Using Hurwitz-Radon matrices. IGI Global book „Knowledge-Based Intelligent System Advancements: Systemic and Cybernetic Approaches”,
    Józefczyk J., Orski D. (Eds.), Hershey PA, USA 2011, pp. 87-107.

    3. Jakóbczak D.: Curve Parameterization and Curvature via Method of Hurwitz-Radon Matrices. Image
    Processing&Communications- An International Journal, vol.16, no.1-2, UT&LS Bydgoszcz 2011, pp. 49-56.

    4. Jakóbczak D.: Data Extrapolation and Decision Making via Method of Hurwitz-Radon Matrices.
    Computational Collective Intelligence: Technologies and Applications (Proc. of ICCCI 2011, Part 1), Lecture Notes in Computer Science, Vol. 6922, Jedrzejowicz P., Ngoc Thanh Nguyen, Kiem Hoang (Eds.), Springer-Verlag Berlin Heidelberg 2011, pp. 173-182.

    5. Jakóbczak D.: Shape Coefficients via Method of Hurwitz-Radon Matrices. Zeszyty Naukowe Wydziału
    Elektroniki i Informatyki, nr 3, str. 59-71, Wydawnictwo Uczelniane Politechniki Koszalińskiej 2011.

    6. Jakóbczak D., Kosiński W.: Shape Parametrization and Contour Curvature Using Method of Hurwitz-
    Radon Matrices. Artificial Intelligence and Soft Computing (Proc. of ICAISC 2012, Part 1), Lecture Notes in
    Computer Science/LNAI, Vol. 7267, Rutkowski L., Korytkowski M., Scherer R., Tadeusiewicz R., Zadeh L.A., Zurada J.M. (Eds.), Springer-Verlag Berlin Heidelberg 2012, pp. 518-526.

    7. Jakóbczak D: Application of Hurwitz-Radon matrices in curve interpolation and almost-smoothing. Central European Journal of Computer Science, December 2012, Volume 2, Issue 4, pp 440-458

    8. Jakóbczak D.: The Zero of Function and Interpolation by the Method of Hurwitz-Radon Matrices. Zeszyty Naukowe Wydziału Elektroniki i Informatyki, nr 4, str. 55-65, Wydawnictwo Uczelniane Politechniki
    Koszalińskiej 2012

    9. Jakóbczak D.: Probabilistic Nodes Combination – Modeling and Interpolation of 2D Curve. International Journal of Organizational and Collective Intelligence (IJOCI), vol.3, no.3, pp.22-35, IGI Global, Hershey PA, USA 2012

    10. Jakóbczak D.: Probabilistic Modeling of Signature using the Method of Hurwitz-Radon Matrices. Global
    Perspectives on Artificial Intelligence, vol. 1, issue 1, pp.1-7, January 2013.

    11. Jakóbczak D.: Application of Hurwitz-Radon Matrices in Shape Coefficients. Asian Journal of Fuzzy and Applied Mathematics, vol.01-issue 01, pp.4-11, June 2013, published online at
    http://www.ajouronline.com/index.php/AJFAM.

    12. Jakóbczak D.: Numerical differentiation via the interpolation method of Hurwitz-Radon Matrices. European Scientific Journal, vol.9, No.27, pp.50-62, September 2013.

    13. Jakóbczak D.: Active Object Modeling and Applications via the Method of Hurwitz-Radon Matrices.
    Zeszyty Naukowe Wydziału Elektroniki i Informatyki, nr 5, str. 5-16, Wydawnictwo Uczelniane Politechniki
    Koszalińskiej 2013.

    14. Jakóbczak D.: Object Recognition via Contour Points Reconstruction Using Hurwitz-Radon matrices. IGI Global books „Image Processing: Concepts, Methodologies, Tools, and Applications”, Hershey PA, USA 2013,
    pp. 998-1018.

    15. Jakóbczak D.: Curve Interpolation and Shape Modeling via Probabilistic Nodes Combination. DOI:
    10.1007/s40595-014-0016-7. Vietnam Journal of Computer Science, Springer 2014, Volume 1, Issue 3 (2014),
    pp. 141-153.

    16. Jakóbczak D.: Probabilistic Interpolation of the Curve via the Method of Hurwitz-Radon Matrices.
    Advances in Computer Science: an International Journal (ACSIJ), Vol. 3, Issue 3, No. 9, May 2014, pp. 9-15.

    17. Jakóbczak, D.J. (2014) Numerical Quadratures Using the Interpolation Method of Hurwitz-Radon Matrices. Advances in Linear Algebra & Matrix Theory, 4 (2), 100-108. http://dx.doi.org/10.4236/alamt.2014.42008

    18. Jakóbczak D.: Offline Text-Independent Handwriting Identification and Shape Modeling via Probabilistic
    Nodes Combination. Artificial Intelligence and Soft Computing (Proc. of ICAISC 2014, Part 2), Lecture Notes in Computer Science - LNAI 8468, Rutkowski, L., Korytkowski, M., Scherer, R., Tadeusiewicz, R., Zadeh, L.A., Zurada, J.M. (Eds.), Springer 2014, pp 119-130.

    19. Jakóbczak D.: Probabilistic Data Modeling - Interpolation and Extrapolation via the Method of Hurwitz-
    Radon Matrices. Open Transactions on Information Processing, vol. 1, no.2, August 2014, pp. 1-19.

    20. Jakóbczak D.J.: Numerical Applications of the Method of Hurwitz-Radon Matrices. Proceedings of 2nd AIIC Annual International Interdisciplinary Conference, 08-12 July 2014, Ponta Delgada, Azores Islands (Portugal),
    pp. 436-446.

    21. Jakóbczak D.J.: Mathematical Modeling of 2D Processes via the Method of Hurwitz-Radon Matrices.
    Proceedings of International Conference On Advances In Computing, Electronics And Electrical Technology CEET 2014, 02-03.08.2014, Kuala Lumpur (Malaysia), pp.114-117.

    22. Jakóbczak D.: Probabilistic 2D Shape Retrieval and Applications via the Method of Hurwitz-Radon
    Matrices. Journal of Control Science and Engineering 2 (2014), pp.1-6.

    23. Jakóbczak, D.J. (2014) The Solution of Nonlinear Equations via the Method of Hurwitz-Radon Matrices. Journal of Computer and Communications, 2, 9-16. http://dx.doi.org/10.4236/jcc.2014.210002

    24. Jakóbczak D.J.: 2D Data Modeling by Probability Distribution. Proceedings of International Conference on Engineering and Applied Science ICEAS 2014, vol. II, 13.07.2014, Bangalore (India), pp.1-5.

    25. Jakóbczak D.J.: Data Modeling using MHR Method. Proceedings of International Conference on Advances in Computer and Electronics Technology ACET 2014, Rakesh Kumar (Ed.), 26-27.08.2014, Hong Kong,
    pp.125-128.

    26. Jakóbczak D.J.: 2D Data Modeling by Probability Distribution. International Journal of Advanced
    Computer Engineering and Communication Technology (IJACECT), 2014 vol. 3, issue 1, pp. 13-17.

    27. Jakóbczak D.J., 2D Curve Modeling via the Method of Probabilistic Nodes Combination - Shape
    Representation, Object Modeling and Curve Interpolation-Extrapolation with the Applications, LAP Lambert Academic Publishing (Saarbrucken, Niemcy) 2014, ISBN 978-3-659-58730-6.

    28. Jakóbczak D.J.: Numerical Applications of the Method of Hurwitz-Radon Matrices. European Scientific
    Journal, vol.3, special edition, pp.436-446, September 2014.

    29. Jakóbczak D.J.: 2D Data Modeling by Probability Distribution. International Journal on Advanced
    Electrical and Computer Engineering (IJAECE), 2014 vol. 1, issue 1, pp. 1-5.

    30. Jakóbczak D.J.: The Method of Probabilistic Nodes Combination in Handwriting Recognition. Zeszyty
    Naukowe Wydziału Elektroniki i Informatyki, nr 6, str. 35-50, Wydawnictwo Uczelniane Politechniki
    Koszalińskiej 2014.

    31. Jakóbczak D.J.: Reconstruction and Modeling of 2D Information. Information - An International
    Interdisciplinary Journal (lista A, nr 4591, 15 pkt.) – in press, 2015.

    32. Jakóbczak D.J.: 2D Point Reconstruction by MHR Method. Proceedings of 2nd International Conference on Advances in Computing, Electronics and Communication - ACEC 2014, 25-26.10.2014, Zurich, pp.181-184.

    33. Jakóbczak D.J.: Restoration of 2D Information by MHR Method. Proceedings of 2nd International
    Conference on Advances in Computing, Communication and Information Technology - CCIT 2014, University of Birmingham (Birmingham, UK), November 16-17, 2014, pp.6-9.

    34. Jakóbczak D.J.: Application of the Method of Hurwitz-Radon Matrices in Data Reconstruction. Proceedings of 2nd International Conference On Advances In Computing, Electronics And Electrical Technology CEET 2014,
    20-21.12.2014, Kuala Lumpur (Malaysia), pp.15-18.

    35. Jakóbczak D.J.: Data Modeling using MHR Method. International Journal of Advances in Computer
    Science & Its Applications – IJCSIA 2014, Volume 4: Issue 4, pp.6-9.

    36. Jakóbczak D.J.: Mathematical Modeling of 2D Processes via the Method of Hurwitz-Radon Matrices.
    International Journal of Advances in Computer Science & Its Applications – IJCSIA 2014, Volume 4: Issue 4,
    pp.157-160.

    37. Jakóbczak D.J.: Implementation of Novel Method in Curve Interpolation. Proceedings of International
    Conference on Advances in Computing, Control and Networking - ACCN 2015, 21-22.02.2015, Bangkok
    (Thailand), pp.7-10.

    38. Jakóbczak D.J.: Probabilistic 2D Point Interpolation and Extrapolation via Data Modeling. Informatica 39 (2015), 53–61.

    39. Jakóbczak D.J.: Application of Curve Interpolation in Data Modeling and Restoration. Proceedings of 3rd International Conference On Advances In Computing, Electronics And Electrical Technology CEET 2015, 11-12.04.2015, Kuala Lumpur (Malaysia), pp.42-45.

    40. Jakóbczak D.J.: 2D Point Reconstruction by MHR Method. International Journal of Advances in Computer Science & Its Applications – IJCSIA 2015, Vol. 5: Issue 1, pp.11-14.

    41. Jakóbczak D.J.: Restoration of 2D Information by MHR Method. International Journal of Advances in
    Computer Science & Its Applications – IJCSIA 2015, Vol. 5: Issue 1, pp.51-54.

    42. Jakóbczak D.J.: Application of the Method of Hurwitz-Radon Matrices in Data Reconstruction.
    International Journal of Advances in Software Engineering & Research Methodology– IJSERM 2015, Vol. 2:Issue 1, pp.40-43.

    43. Jakóbczak D.J.: The Method of Probabilistic Nodes Combination in 2D Information Reconstruction, Object Recognition and Modeling. Proceedings of 3rd International Conference on Advances in Computing,Communication and Information Technology - CCIT 2015, City University of Birmingham (Birmingham, UK), May 26-27, 2015, pp.93-98.

    44. Jakóbczak D.J.: The Method of Probabilistic Nodes Combination in Simulation and Modeling. New
    Developments in Computational Intelligence and Computer Science, Wang Y., Borne P., Rudas I. (Eds), Recent Advances in Computer Engineering Series 28. Proceedings of the International Conference on Applied Physics, Simulation and Computers - APSAC 2015, Vienna (Austria), March 15-17, 2015, pp.124-129.

    45. Jakóbczak D.J.: Novel Method of 2D Data Simulation and Modeling. Recent Researches in Applied
    Mathematics, Simulation and Modelling, Rudas I. (Ed.), Mathematics and Computers in Science and
    Engineering Series 46. Proceedings of the 9th International Conference on Applied Mathematics, Simulation, Modelling - ASM15, Konya (Turkey), May 20-22, 2015, pp.121-126.

    46. Jakóbczak D.J.: Data Interpolation with Applications via Probabilistic Distribution and Nodes
    Combination. Recent Advances in Mathematics, Rudas I. (Ed.), Mathematics and Computers in Science and Engineering Series 48. Proceedings of the 2015 International Conference on Pure Mathematics, Applied Mathematics and Computational Methods (PMAMCM 2015), Zakynthos Island (Greece), July 16-20, 2015, pp.27-32.

    47. Jakóbczak D.J.: Applications of Hurwitz-Radon Matrices in Data Engineering and Information Restoration. Recent Advances on Computer Engineering Series 33, Xiaodong Zhuang (Ed.). Proceedings of the 14th International Conference on Applications of Computer Engineering (ACE '15), Seoul (Korea), September 5-7, 2015, pp.159-162.

    48. Jakóbczak D.J.: Data Reconstruction based on Probability Distribution. Mathematical and Computational Methods in Applied Sciences, Rudas I. (Ed.), Mathematics and Computers in Science and Engineering Series 51.Proceedings of 3rd International Conference on Applied, Numerical and Computational Mathematics (ICANCM '15), Sliema (Malta), August 17-19, 2015, pp.179-184.

    49. Jakóbczak D.J.: Geometry of the Curve using Nodes Combination with Probability Distribution.
    Mathematical and Computational Methods in Electrical Engineering, Mladenov V. (Ed.), Recent Advances in Electrical Engineering Series 53. Proceedings of 15th International Conference on Signal Processing,
    Computational Geometry and Artificial Vision (ISCGAV '15), Sliema (Malta), August 17-19, 2015, pp.147-152.

    50. Jakóbczak D.J.: Information Retrieval and Data Forecasting via Probabilistic Nodes Combination.
    Intelligent Data Engineering and Automated Learning – IDEAL 2015, Lecture Notes in Computer Science
    LNCS 9375, Jackowski, K., Burduk, R., Walkowiak, K., Woźniak, M., Hujun Yin (Eds.), Springer 2015, pp
    104-112.

    51. Jakóbczak D.J.: Application of Curve Interpolation in Data Modeling and Restoration. International Journal of Advances in Computer Science & Its Applications – IJCSIA 2015, Vol. 5: Issue 2, pp.121-124.

    52. Jakóbczak D.J.: Implementation of Novel Method in Curve Interpolation. International Journal of Advances in Computer Science & Its Applications – IJCSIA 2015, Vol. 5: Issue 2, pp.7-10.

    53. Jakóbczak D.J.: The Method of Probabilistic Nodes Combination in 2D Information Reconstruction, Object Recognition and Modeling. International Journal of Advances in Computer Science & Its Applications – IJCSIA 2015, Vol. 5: Issue 2, pp.173-178.

    54. Jakóbczak D.J.: Data Modeling and Interpolation based on Probability Distribution of the Nodes.
    Advances in Computer Science, Xiaodong Zhuang (Ed.), Recent Advances in Computer Engineering Series 35. Proceedings of the 6th European Conference of Computer Science (ECCS '15), Rome (Italy), November 7-9, 2015, pp.245-250.

    55. Jakóbczak D.J.: Curve Restoration with Implementations based on Probability Distribution Functions.
    Mathematical Models and Computational Methods, Rudas I. (Ed.), Mathematics and Computers in Science and Engineering Series 55. Proceedings of the 2015 International Conference on Applied Mathematics,
    Computational Science & Engineering (AMCSE 2015), Agios Nikolaos, Crete, Greece, October 17-19, 2015,pp.69-74.

    56. Jakóbczak D.J.: Applications of Probabilistic Distribution via Hurwitz-Radon Matrices. Recent Advances
    on Applied Mathematics, Rudas I. (Ed.), Mathematics and Computers in Science and Engineering Series 56.Proceedings of the 20th International Conference on Applied Mathematics AMATH15, Budapest (Hungary), December 12-14, 2015, pp.149-152.

    57. Jakóbczak D.J.: Data Forecasting and Extrapolation via Probability Distribution and Nodes Combination.Zeszyty Naukowe Wydziału Elektroniki i Informatyki, nr 8, str. 25-38, Wydawnictwo Uczelniane Politechniki Koszalińskiej 2015.

    58. Jakóbczak D.J.: The Method of Probabilistic Nodes Combination in 2D Information Retrieval, Pattern
    Recognition and Biometric Modeling. Advances in Intelligent Systems and Computing 389, Image Processing and Communications: Challenges 7, Choraś R.S. (Ed.), Springer 2016, pp. 125-134.

    59. Jakóbczak, D. J. (2016). Analyzing Risk through Probabilistic Modeling in Operations Research (pp. 1-
    442). Hershey, PA: IGI Global. doi:10.4018/978-1-4666-9458-3

    60. Jakóbczak D.J: Data Extrapolation via Curve Modeling in Analyzing Risk: Value Anticipation for Decision Making. In: Analyzing Risk through Probabilistic Modeling in Operations Research, Jakóbczak D.J. (Ed.), IGI Global (Hershey PA, USA), 2016, pp. 1-31.

    61. Jakóbczak D.J: The Method of Probabilistic Nodes Combination in Decision Making and Risk Analysis:
    Data Extrapolation in Planning. In: Analyzing Risk through Probabilistic Modeling in Operations Research,
    Jakóbczak D.J. (Ed.), IGI Global (Hershey PA, USA), 2016, pp. 32-60.

    62. Jakóbczak D.J.: Applications of Orthogonal Matrices in 2D Data Retrieval. Advances in Mathematics and Computer Science & their Applications, Rudas I.J, Lee S.C. (Eds.), Mathematics and Computers in Science and Engineering Series 57. Proceedings of the 7th European Conference on Applied Mathematics and Informatics AMATHI16, Venice (Italy), January 29-31, 2016, pp.264-267.

    63. Jakóbczak D.J.: Probabilistic Method of Data Computation, Interpolation and Modeling. Advances in
    Mathematics and Computer Science & their Applications, Rudas I.J, Lee S.C. (Eds.), Mathematics and
    Computers in Science and Engineering Series 57. Proceedings of the 18th International Conference on
    Mathematical Methods, Computational Techniques and Intelligent Systems MAMECTIS '16, Venice (Italy),
    January 29-31, 2016, pp.252-257.

    64. Jakóbczak D.J.: A Novel Method of 2D Computation and Reconstruction. Recent Advances in Mathematics and Computational Science, Rudas I.J (Ed.), Mathematics and Computers in Science and Engineering Series 58. Proceedings of the 4th International Conference on Mathematical, Computational and Statistical Sciences MCSS '16, Barcelona (Spain), February 13-15, 2016, pp.35-41.

    65. Jakóbczak D.J.: Information Analysis and 2D Point Extrapolation using Method of Hurwitz-Radon
    Matrices. International Arab Journal of Information Technology –accepted, WoS-JCR.

    66. Jakóbczak D.J.: Modeling of High-dimensional Data for Applications of Image Segmentation in Image
    Retrieval and Recognition Tasks. Hybrid Soft Computing for Image Segmentation, Siddhartha Bhattacharyya, Paramartha Dutta, Sourav De, Goran Klepac (Eds.), Springer International Publishing AG, Cham, Switzerland. It is expected to be published in 2017.

    More Info.
    Shakerkhan Kapan Oralgazyolu
    Senior Lecturer
    Department of Physics-mathematical science and informatics
    Shakarim State University
    Kazakhstan
    kapan-shakerkhan@mail.ru
    AMP

    Shakerkhan Kapan Oralgazyuly is a native of Shugulbay village, Kokpekti district, Abay region. I was born on May 30, 1986, my father is Shakerkhanov Oralgazy Ashkenevich, my mother is Alpieva Raikhan Ramazanovna, I have a younger brother - Shakerkhanov Murat Oralgazyevich. I have a family: my wife Kasymova Zere Myrzakhmetovna, I have four small children. In 1992, I went to the first grade at the Kazakh secondary school named after Ilyas Zhansugurov in Shugulbay village. 1995 moved to Zhezkent town, Borodulikha district, Abay region, graduated from 3rd grade Kazakh secondary school. Since there was no Kazakh school in Zhezkent, in 2004 completely graduated from the Russian secondary school with honors. I speak Kazakh, Russian and English fluently, know Turkish language moderately.

                In 2004 I enrolt the grant of Semipalatinsk State University named by Shakarim - in the specialty of 5B0723 "Technical Physics". At 2008 successfully I defend my thesis and received a bachelor's academic degree in technical physics. And by the 2008 I started my first job as a laboratory assistant at the "Automation and Management" department of Semey State University named by Shakarim. After that, for several years, I worked as a teacher of physics and computer science subjects at a professional lyceum, college.

                2012 - 2014 Almaty International University of Information Technologies 6М070400 - " Computer engineering and software" academic degree "Master of technical sciences" is awarded. 2014 Since 2010, I have worked as a senior lecturer and leading programmer at the Kazakh Innovation University, College of Finance and Economics.

                Since 2016-to present days, I work in the Shakarim State University as a senior lecturer at the department of the "Physics and mathematical science and informatics".

                In 2019 I enrolled to the Alikhan Bukeikhan University on a grant for doctoral studies of the "Informatics" 8D06110 educational program. In the 2022, I successfully completed the theoretical and scientific-practical training of the doctorate program. During these years, several articles were published in Scopus and Web of Science journals, articles defend in KKSON journals, international conferences appeared. In Russia, at Kemerovo State University, I did excellent research work. Shakerkhan Kapan's several textbooks, educational-methodological complexes have been published.

                In 2023 I collected documents related to the defense of my doctoral thesis.

    Research Interests:

    Mathematical modelling, data analysis, machine learning, programming, AI, data mining, bioenergy, alternative energy sources, clean, green technologies, cybernetics.


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    Walid Tawfik
    National Institute of Laser Enhanced Sciences, NILES
    Cairo University
    Egypt
    walid_tawfik@niles.edu.eg
    AMP

    List of Publications: https://www.researchgate.net/profile/Prof_Walid_Tawfik2

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    Alireza Valipour Baboli
    Ph.D Mathematics
    Mathematics
    Technical and Vocational University
    Iran
    a.valipour@umz.ac.ir
    AMP

    1: Ranked first among the 2000 hemorrhages in pure mathematics at Mazandaran University.

    2: Use of the first-rate quotas for admission to the 2006 Graduate Certificate in the Master's Degree Program at Mazandaran University, in the field of purely mathematical analysis, written by a written organization from the country's assessment and education organization.

    3: Achievement of the third rank among the hemorrhages of the year 2005 in the master's degree of the University of Mazandaran  in the field of pure mathematics among all trends (geometry-geometry analysis) and among all the daily and university courses.

    4: Students' participation in the polar stage at the University of Gilan, which participated in the years 2003-2003, after receiving a degree in mathematics at the University of Applied Sciences in Madrid, to send a student team to the Mathematical Olympiad.

    5: earning the title of Senior Vice President of the Board of Directors of the Directorate of Planning and Budget of the IRGC in 2009.
    6: Second place in high school in Babol, Shahid Beheshti University in 1998
    7: Has a teaching ID in all Islamic Azad University units at 303107301229501
    8: Has a teaching ID in the Applied Scientific Applied Sciences University at 9210000116798

    9: Secondary and Secondary High School Grades in Babol Shahid Beheshti High School

    10: Member of the Research and Young Researchers Club of the Islamic Azad University of Qa'im Shahr Bakht Identification 3972181070003

    11 members of the editorial board of the IRJET International Journal of Engineering Technology

    12: International Referee for Fuzzy Optimization and Modeling

    Research Interest: Fixed point theorem, Measure of noncompactness, Functional Analysis, Real Analysis, Fuzzy Spaces, Impulsive Differential Equation


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    A. Manuela Gonçalves
    Professor
    Department of Mathematics
    University of Minho
    Portugal
    mneves@math.uminho.pt
    AMP

    Research Interest: Statistics, Applied Probability, Spatial and Temporal Modelling, Time Series Analysis, Linear and Generalized Linear Models, Multivariate Statistical Analysis, Environmental Applications, Medicine Applications, Engineering Applications

    No. of Publications (up-to-date): 31




    More Info.
    Aref Jeribi
    Professor
    Mathematics
    University of Sfax
    Tunisia
    aref.jeribi@fss.rnu.tn
    AMP

    Research Interest: 

    Spectral theory, Fixed point theory, Linear relation, Transport equation

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    Hongfu Liu
    Electrical & Computer Engineering
    Northeastern University
    US
    liu.hongf@husky.neu.edu
    AMP
     </xml> <style> /* Style Definitions */ table.MsoNormalTable {mso-style-name:"Table Normal"; mso-tstyle-rowband-size:0; mso-tstyle-colband-size:0; mso-style-noshow:yes; mso-style-priority:99; mso-style-parent:""; mso-padding-alt:0cm 5.4pt 0cm 5.4pt; mso-para-margin-top:0cm; mso-para-margin-right:0cm; mso-para-margin-bottom:8.0pt; mso-para-margin-left:0cm; line-height:107%; mso-pagination:widow-orphan; font-size:11.0pt; font-family:"Calibri","sans-serif"; mso-ascii-font-family:Calibri; mso-ascii-theme-font:minor-latin; mso-hansi-font-family:Calibri; mso-hansi-theme-font:minor-latin; mso-fareast-language:EN-US;} </style> Biography: Hongfu Liu received his bachelor and master degree in Management Information Systems from the School of Economics and Management, Beihang University, in 2011 and 2014 respectively. He is currently pursuing the Ph.D. degree in Northeastern University, Boston. His research interests generally focus on data mining and machine learning, with special interests in ensemble learning.<!--[if gte mso 9]><xml> </xml><xml> Normal 0 false false false EN-IN ZH-CN X-NONE </xml><xml> </xml> <style> /* Style Definitions */ table.MsoNormalTable {mso-style-name:"Table Normal"; mso-tstyle-rowband-size:0; mso-tstyle-colband-size:0; mso-style-noshow:yes; mso-style-priority:99; mso-style-parent:""; mso-padding-alt:0cm 5.4pt 0cm 5.4pt; mso-para-margin-top:0cm; mso-para-margin-right:0cm; mso-para-margin-bottom:8.0pt; mso-para-margin-left:0cm; line-height:107%; mso-pagination:widow-orphan; font-size:11.0pt; font-family:"Calibri","sans-serif"; mso-ascii-font-family:Calibri; mso-ascii-theme-font:minor-latin; mso-hansi-font-family:Calibri; mso-hansi-theme-font:minor-latin; mso-fareast-language:EN-US;} </style> Research Interest: Data Mining, Machine Learning, Cluster Analysis<!--[if gte mso 9]><xml> </xml><xml> Normal 0 false false false EN-IN ZH-CN X-NONE </xml><xml>
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    Kais Iben Nassar
    Researcher
    Physics and Chemistry Department
    University of Aveiro
    Portugal
    kaisibnnassar12@gmail.com
    AMP

    Prof Jun Peng is currently the Chair Professor of Sustainable Energy Engineering in the University of Lincoln, UK. He is a member of the University’s Green Energy and Net Zero Steering Committee, Deputy Director in Research of School of Engineering, Head of Thermofluids Research Lab. Prof Peng obtained his PhD degree in mechanical engineering (thermodynamics/IC engine combustion) in 1996 from the National Engine Combustion Lab (China). He moved to Brunel University in 1998 as research fellow for five years.  After obtained two years industrial experience at Ford Motor Company (Product Development Europe) as a senior development engineer since 2003, he started working as a lecturer in mechanical engineering in University of Sussex since 2004 and was promoted to senior lecturer (associate professor) in 2007. He was appointed as Professor in Engineering in Faculty of Creative Arts, Technologies and Science, University of Bedfordshire in June 2017. Prof Peng’s research interest lies in flow dynamics and combustion with application on combustion engines, gas turbines, fuel cells and other sustainable power systems. Prof Peng is a fellow of IMechE (Institution of Mechanical Engineers) and committee members of Academic Assessment Committee, and an invited international fellow of JSPS (Japan Society for the Promotion of Science).  He is currently an associate editor of Electronics Letters (SCI Journal) and Editorial Board member of Johnson Matthey Technology Review (SCI Journal). 

    Research Interests:

    Condensed Materials Physics

    Preparation of New Perovskite Ceramics

    Double Perovskites

    Engineering and Technology

    Nano-materials

    Morphological Characterization

    Structural, Electrical, and Magnetic Properties

    2D Materials, MXenes...

    Machine Learning

    Data Science

    Impedance Spectroscopy Complexes...

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    Harish Garg
    Assistant Professor
    School of Mathematics
    Deemed University
    India
    harishg58iitr@gmail.com
    AMP

    Dr. Harish Garg associated with the School of Mathematics at Thapar Institute of Engineering & Technology Patiala, India as an Assistant Professor. Prior to joining this University, Dr. Garg received a PhD in Applied Mathematics with specialization of Reliability theory and soft computing techniques, from Indian Institute of Technology Roorkee, India in 2013 and an MSc in Mathematics from Punjabi University, Patiala, India in 2008. His research interest are in the field of Computational Intelligence, Multi-criteria decision making problems, Reliability theory, Optimization techniques, various nature inspired algorithms (e.g. genetic algorithms, swarm optimization), fuzzy and intuitionistic fuzzy set theory, Expert Systems. Application areas include wide range of industrial and structural engineering design problems. Garg has authored/co-authored over 117 technical papers published in refereed International Journals including Applied Intelligence, Applied Soft Computing, Experts Systems with Applications, Journal of Intelligent and Fuzzy Systems, Journal of Manufacturing Systems, Applied Mathematics & Computations, ISA Transactions, Computer and Industrial Engineering, IEEE Transactions on Emerging Topics in Computational Intelligence, Computer and Operations Research, International Journal of Uncertainty, Fuzziness and Knowledge-based Systems, Journal of Industrial and Management Optimization, International Journal of Intelligent Systems, Journal of Multiple Logic and Soft Computing, Japan Journal of Industrial and Applied Mathematics, and many more. He has published seven book chapters also. He also severs as an Editorial Board member of various International Journals. He is listed in International Who’s Who of Professionals, Marquis Who’s Who in the World, and Marquis Who’s Who in Science and Engineering. In the year 2016, Dr. Garg was awarded an awarded outstanding reviewer for the journal Applied Soft Computing, Elsevier. His google citations are over 1485. For more details, visit http://sites.google.com/site/harishg58iitr/

    Research Interest: Fuzzy set theory; Soft Computing techniques; Decision making theory; Aggregation operators; Evolutionary algorithms; Expert  systems; Reliability theory and Reliability optimization.

    List of Publications: 
    https://sites.google.com/site/harishg58iitr/research/journals-publication

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    Saeed Hashemi Sababe
    Associated Professor
    Mathematical and statistical Sciences
    University of Alberta
    Canada
    Hashemi_1365@yahoo.com
    AMP

    I earned my PhD in 2018 in Iran, where I defended my thesis on Reproducing Kernel Hilbert Spaces and their applications. During my PhD, I was honored with the Research Scholar Award, which allowed me to conduct research at the University of Iowa, United Satate, under the mentorship of Professor Palle Jorgensen. Following the completion of my PhD, I accumulated approximately four years of experience teaching at the university level. In 2020, I applied for and was appointed as a Visiting Professor at the University of Alberta, Canada, a position I held until 2022. During my time at the University of Alberta, I conducted extensive research and published over 20 papers (latest one on February 2024 in “Fixed Point Theory”), with significant contributions in journals such as Fixed Point Theory (Romania), Journal of Computational Mathematics, Journal of Nonlinear and Convex Analysis, Symmetry, and Mathematica Slovaca. Parallel to my academic endeavors, I began serving as a peer reviewer, having authored more than 100 peer review reports for various scholarly journals over the past four years. Currently, while maintaining a loose affiliation with the University of Alberta, I am leveraging my expertise in practical applications as the Director and Head of the Research and Development Section at Data Premier Analytics Company. In this role, I lead a team in conducting research and implementing our findings in real-world projects.

    Research Interest:

    Operator Thoery and Applocations, Banach Algebras and Applications, Fixed Point Thoery and Applications, Complex Functions and Application, Data Science and Data Analysis

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    Xiaofeng Chen
    Associate professor
    Department of Mathematics
    Chongqing Jiaotong University
    China
    xxffch@126.com
    AMP

    Xiaofeng Chen was born in 1980. He received the B.S. degree in Mathematics in 2003 and the M.S. degree in Applied Mathematics in 2006 both from Sichuan University, Chengdu, China. From July 2006 to now he is with Department of Mathematics, Chongqing Jiaotong University, Chongqing, China. His current research interest involves stability theory of complex-valued and quaternion-valued neural networks.

    Research Interest: Global μ-Stability of Neural Networks; Stability of Iterative Neural Networks; Stability of Complex-Valued Neural Networks; Stability of Quaternion-Valued Neural Networks; Multistability of Complex-Valued Neural Networks; Stability of Fractional-Order Complex-Valued Neural Networks; Robust Stability of Quaternion-Valued Neural Networks; State Estimation for Quaternion-Valued Neural Networks


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    Kartlos Joseph Kachiashvili
    Professor
    Faculty of Informatics and Control Systems
    Georgian Technical University
    Georgia
    k.kachiashvili@gtu.edu.ge
    AMP

    Prof., Dr. of Sc. Kartlos Joseph Kachiashvili is Professor of Georgian Technical University, Faculty of Informatics and Control Systems. Also he is Senior Scientific Worker of the I. Vekua Institute of Applied Mathematics of the Tbilisi State University (Tbilisi, Georgia) and Senior Scientific Worker of Muskhelishvili Institute of Computational Mathematics. He was working in many scientific research institutes and universities in Georgia, Russia and Pakistan on the positions: engineer, scientific worker, Head of Laboratory, Head of Department, Head of National Center, Professor, Rector of Institute. He has 225 scientific papers published in various esteemed reputable International Journals. He is a Member of Various Professional Bodies and Editorial Boards of international scientific journals. He published seven monographs and three text-books in Georgia, Ukraine, USA and Indonesia. He has received many prestigious awards and rewards. His research interests are: Mathematical Statistics, Data Analysis (Environmental, Agricultural, Medical), Mathematical Mo¬deling and Simulation, New Computer Technologies Development, System Analysis (Environmental Water Pollution), Com¬pu¬ting Mathematics.

    Research Interest: Mathematical Statistics, Data Analysis (Environmental, Agricultural, Medical), Mathematical Modeling and Simulation, New Computer Technologies Development, System Analysis (Environmental Water Pollution), Computing Mathematics.

    Grants: for last 30 years he is got 33 scientific grants from different national and international funds.

    Number of publications: 225



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    Hari Mohan Srivastava
    Professor
    Department of Mathematics and Statistics
    University of Victoria
    Canada
    AMP

    Research Interest: Real and Complex Analysis; Fractional Calculus and Its Applications; Integral Equations and Transforms; Higher Transcendental Functions and Their Applications; q-Series and q-Polynomials; Analytic Number Theory; Analytic and Geometric Inequalities; Probability and Statistics; Inventory Modelling and Optimization

    Grants: None

    More Info.
    Jia-Ming Wu
    Department of Radiation Oncology
    Department of Information Engineering
    I-Shou University
    Taiwan
    jiaming.wu@chmsc.com
    AMP

    Research Interest: Medical Physics, Mathematical model

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    mendeley

    Coefficient estimates for a subclass of bi-univalent functions associated with the Salagean differential operator

    DOI Logo 10.17352/amp.000112

    Published On: April 05, 2024 | Pages: 091 - 095

    Author(s): Mohammad Mehdi Shabani, Maryam Yazdi and Saeed Hashemi Sababe*

    ORCID Logo  0000-0003-1167-5006

    Abstract View Full Article View
    mendeley

    Abundant dynamical solitary waves solutions of M -fractional Oskolkov model

    DOI Logo 10.17352/amp.000111

    Published On: April 02, 2024 | Pages: 085 - 090

    Author(s): Badamasi Bashir Mikailu, Jafar Anafi and Shaheera Haroon*

    ORCID Logo  0009-0001-9826-0737

    Abstract View Full Article View
    mendeley

    Analyzing twin primes, Goldbach's strong conjecture and Polignac's conjecture

    DOI Logo 10.17352/amp.000110

    Published On: March 21, 2024 | Pages: 076 - 084

    Author(s): Mercedes Orús–Lacort, Román Orús and Christophe Jouis

    ORCID Logo  0000-0002-4496-8115

    Abstract View Full Article View
    mendeley

    Study of vibration shock processes of non-linear mechanical systems with distributed parameters

    DOI Logo 10.17352/amp.000109

    Published On: March 12, 2024 | Pages: 072 - 075

    Author(s): Levan Gavasheli* and Anri Gavasheli

    ORCID Logo  0009-0006-8642-3937

    Abstract View Full Article View
    mendeley

    Generation of a substance with negative mass

    DOI Logo 10.17352/amp.000108

    Published On: March 12, 2024 | Pages: 067 - 071

    Author(s): BG Golovkin*
    Abstract View Full Article View
    mendeley

    A note on Cardano’s formula

    DOI Logo 10.17352/amp.000107

    Published On: February 29, 2024 | Pages: 064 - 066

    Author(s): Dietmar Pfeifer*

    ORCID Logo  0000-0001-8339-0443

    Abstract View Full Article View
    mendeley

    Mathematical analysis of the new α - difference operator with an application to prey-predator model with harvesting. Quadratic invariant

    DOI Logo 10.17352/amp.000106

    Published On: February 20, 2024 | Pages: 054 - 063

    Author(s): HI Abdel-Gawad* and Ahmed H Abdel-Gawad

    ORCID Logo  0000-0003-1986-2324

    Abstract View Full Article View
    mendeley

    Energy metrics and their Ricci flows

    DOI Logo 10.17352/amp.000105

    Published On: February 06, 2024 | Pages: 024 - 053

    Author(s): Sergio Benenti* and Fabio Cardone
    Abstract View Full Article View
    mendeley

    Lorentz Transformation and time dilatation

    DOI Logo 10.17352/amp.000104

    Published On: January 10, 2024 | Pages: 016 - 022

    Author(s): Miodrag Mateljević*

    ORCID Logo  0000-0002-9226-0023

    Abstract View Full Article View
    mendeley

    A new reduced quantile function for generating families of distributions

    DOI Logo 10.17352/amp.000103

    Published On: January 09, 2024 | Pages: 001 - 015

    Author(s): Prince O Chukwuma, Etaga O Harrison, Precious Ibeakuzie, Ifeanyi C Anabike and Okechukwu J Obulezi*

    ORCID Logo  0000-0002-7753-1868

    Abstract View Full Article View

     

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    M.Waheed Roomi
    Dr. Rath Research Institute
    1260 Memorex Drive, Santa Clara, USA
    Global Journal of Cancer Therapy
    Domenico Antonio Restivo
    Nuovo Garibaldi Hospital, Italy
    Journal of Neurology, Neurological Science and Disorders
    William CS Cho
    Queen Elizabeth Hospital, Hong Kong
    International Journal of Immunotherapy and Cancer Research
    Richard Kones
    Cardiometabolic Research Institute, USA
    Journal of Cardiovascular Medicine and Cardiology
    Vingolo Enzo Maria
    Sapienza University of Rome, Italy
    Journal of Clinical Research and Ophthalmology
    Richard Hogston
    Leeds Beckett University, UK
    Archives of Community Medicine and Public Health
    Jinde Cao
    Southeastern University, China
    Trends in Computer Science and Information Technology
    Nicholas Kipshidze
    Cardiovascular Research Foundation, New York, USA
    Archives of Clinical Hypertension
    Hongxing Dai
    Beijing University of Technology , PR China
    Journal of Civil Engineering and Environmental Sciences
    Edoardo Raposio
    University of Parma, Italy
    International Journal of Dermatology and Clinical Research

    NIH Funded Articles

    Variation among gari samples of some yellow cassava (Manihot esculenta Crantz) varieties for change in color during storage Intranuclear inclusions in conventional clear cell Renal Cell Carcinoma (RCC): A case report and review of the literature How Anterior Cruciate Ligament Injury was averted during Knee Collapse in a NBA Point Guard Ethnic Differences in Abstinence Self-Efficacy among Recovering Individuals Neural Response During a Mechanically Assisted Spinal Manipulation in an Animal Model: A Pilot Study Diabetic Retinopathy: Focus on Minority Populations Buprenorphine Maintenance for Opioid Dependence in Public Sector Healthcare: Benefits and Barriers Validity of Ratings of Perceived Exertion in Patients with Type 2 Diabetes Hepatitis B Vaccination Rate in Patients with Diabetes: Assessment of Racial and Socioeconomic Disparity Significance of Cancer Stem Cells in Anti-Cancer Therapies

    Research Articles

    Clinical evidence in Troilism (Polygamy and Polyamory): Definition, psychological profiles and clinical implications
    August 07, 2021    Antioxidant potential of lettuce treated by Thymol as an allochemical
    May 26, 2017    Clay soil chronic kidney failure in Vidharbha region of Maharashtra state
    March 16, 2020

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